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Wprowadzenie nanocząstek Cu do struktury nanowłókien w trakcie przędzenia
Języki publikacji
Abstrakty
Nowadays, nanotechnologies are of great interest in many areas of research and textile materials are also the ones that are getting more and more involved into it. Recently researches have started to concentrate on the insertion of different nanoparticles into polymeric structures and also on integrating fibrous nanostructures into more complicated systems. The aim of our research was to embed copper (Cu) nanoparticles into a nanofibrous structure via a sophisticated electrospinning technique. SEM and EDS techniques were used in order to evaluate the results of the experiments performed: the quality of the nanofibrous structure and the distribution of nanoparticles inside the fibres. Results showed that we succeeded in embedding Cu nanoparticles into polymeric nanofibres, despite the latter having formed when the polymer was moving upwards and the electric field between the electrodes in the electrospinning device was strong.
Rozpoczęto badania nad wprowadzaniem różnych nanocząstek do struktur polimerowych oraz integracji nanowłókien w bardziej złożone struktury. Celem naszej pracy było wprowadzenie cząstek Cu do struktury nanowłókien stosując technikę elektroprzędzenia. Dla oceny uzyskanych wyników, a zwłaszcza jakości nanowłókien oraz rozkładu cząstek w matrycy polimerowej, zastosowano metody SEM i EDS. Wyniki badan wykazały, że udało się wprowadzić nanocząstki Cu do struktury nanowłókien przy stosowaniu metody formowania włókien poruszającym się z dołu do góry w silnym polu elektrostatycznym.
Czasopismo
Rocznik
Strony
17--20
Opis fizyczny
Bibliogr. 21 poz., fig., tab.
Twórcy
autor
- Department of Textile Technology, Faculty of Design and Technologies, Kaunas University of Technology, Kaunas, Lithuania, LT-51424, Kaunas, Lithuania
autor
- Department of Textile Technology, Faculty of Design and Technologies, Kaunas University of Technology, Kaunas, Lithuania, LT-51424, Kaunas, Lithuania
autor
- Department of Textiles, Faculty of Natural Science and Engineering, University of Ljubljana, Ljubljana, Slovenia, Snežniška 5, p.p. 312, SI-1101 Ljubljana, Slovenia
autor
- Institute of Metals and Technology, Ljubljana, Slovenia, Lepi pot 11, SI-1000 Ljubljana, Slovenia
Bibliografia
- 1. Lederman L.; Nanobiotechnology’, Biotechniques, Vol. 41, No. 1, 2006, pp. 29-31.
- 2. Thonstenson E.T., Chou T.W.; Carbon Nanotube-Based Health monitoring of Mechanically Fastened Composite Joints’. Composite Science and Technology, No. 68, 2008, pp. 2557-2561.
- 3. Nanotechnology’. Institution of Mechanical Engineers. Available on: http://www. imeche.org/about/.
- 4. Zong X., et al.; Electrospun Fine-Textured Scaffolds for heart tissue Constructs’. Biomaterials, No. 26, 2005, pp. 5330-5338.
- 5. Wei He, et al.; Fabrication of Collagen Coated Biodegradable Polymer Nanofibre Mesh and its Potential for Endothelial Cells Growth’. Biomaterials, No. 26, 2005, pp. 7606-7615.
- 6. Stitzel J., et al.; Controlled Fabrication of a Biological Vascular Substitute’. Biomaterials, No. 27, 2006, pp. 1088-1094.
- 7. Noh H.K., et. al.; Electrospinning of Chitin Nanofibres: Degradation Behavior and Cellular Response to Normal Human Keratinocytes and Fibroblasts’. Biomaterials, No. 27(21), 2006, pp. 3934-44
- 8. Schnell E., et al.; Guidance of Glial Cell Migration and Axonal Growth on Electrospun Nanofibres of Poly-ε-caprolactone and Collagen/Poly-ε-caprolactone Blend’. Biomaterials, No. 28, 2007, pp. 3012-3025.
- 9. Schnell E., et al.; The Effect of the Alignment of Electrospun Fibrous Scaffolds on Schwann Cell Maturation’, Biomaterials, No. 29, 2008, pp. 653-661.
- 10. Kim K., et.al.; Incorporation and Controlled release of a Hydrophilic Antibioting Using Poly(lactide-co-glycolide)-based Electrospun nanofibrous Scaffolds’. Journal of Conrtolled Release, No. 98, 2004, pp. 47-56.
- 11. Suwantong O., et. al.; Electrospun Cellulose Acetate Fibre Mats Containing Curcumin and Release Characteristic of the Herbal Substance’. Polymer, No. 48, 2007, pp. 7546-7557.
- 12. Adomavičiūtė E., Milašius R.; The Influence of Applied Voltage on Poly(vinyl alcohol) (PVA) Nanofibre Diameter’. Fibres and Textiles in Eastern Europe, Vol. 15, No. 5-6, 2007, pp. 69-72.
- 13. Adomavičiūtė E. Adomavičienė M., Milašius R., Leškovsek M., Demšar A.; The Influence of Poly(vinyl alcohol) (PVA) Solution Properties on the Diameter of Nanobres’. 4th International Textile. Clothing & Design Conference Magic World of Textiles / Book of Proceedings, 2008, pp. 37-41.
- 14. Broda J., Gawlowski A., Fabia J., Slusarczyk C.; Supermolecular Structure of Polypropylene Fibres Modified by Additives’. Fibres and Textiles in Eastern Europe, Vol. 15, No. 5-6, 2007, pp. 30-33.
- 15. Xue-Yong Ma, Wei-De Zhang; Effects of Flower-like ZnO Nanowhiskers on the Mechanical, Thermal and Antibacterial Properties of Waterborne Polyurethane’. Polymer Degradation and Stability, No. 94, 2009, pp. 1103-1109.
- 16. Beyth N., et.al.; Surface Antimicrobial Activity and Biocompatibility of Incorporated Polyethylenimine Nanoparticles’. Biomaterials, No. 29, 2008, pp. 4157-4163.
- 17. Thonstenson E.T., Ziaee S., Chou T.W.; Processing and Electrical Properties of Carbon Nanotube/Vinyl Ester Nanocomposites’. Composites Science and Technology, No. 69, 2009, pp. 801-804.
- 18. Babu R., et. al.; Antimicrobial Activities of Silver Used as a Polymerization Catalyst for a Wound-Healing Matrix’. Biomaterials, No. 27, 2006, pp. 4304-4314.
- 19. Zhang Q., et al.; Preparation of Ultra-Fine Polyimide Fibres Containing Silver Nanoparticles via in situ Technique’. Materials Letters, No. 61, 2007, pp. 4027-4030.
- 20. Goldstein J., et al.; Scanning Electron Microscopy and X-Ray Microanalysis, third ed., KluwerAcademic, 2003, pp. 499-517.
- 21. Milda Pociūtė-Adomavičienė, *Anne Schwarz, Sigitas Stanys; Analysis of the Wetting Behavior of an Inclined Fibre, 2006, pp. 91-96.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-194305c7-9167-4199-96af-5ac7bb18e186